Risk Factors for Post-Traumatic Massive Cerebral Infarction Secondary to Space-Occupying Epidural Hematoma

Evaluation of incidence and outcomes of compressive extradural haematoma-related infarcts in the paediatric population

INTRODUCTION

Traumatic extradural haematoma (EDH) is one of the neurosurgical emergencies in the paediatric population. One of the rare complications of extradural haematoma is adjacent parenchymal infarct from the compressive effect of haematoma leading to further morbidity. We aimed to evaluate the incidence and outcomes of this rare complication in paediatric trauma patients.

METHODS

We undertook a retrospective review of all operative extradural haematoma cases in single centre paediatric neurosurgical unit between the years 2008 and 2024. Cases with postoperative imaging were analysed for demographics, age, sex, dimensions of haematoma and underlying infarct, pre-operative GCS and pupillary abnormality and time interval from scan to surgery. Infarct was defined as well-defined parenchymal hypodensity corresponding to vascular territory and not attributable to contusions on postoperative CT head performed at 24-72 h. All patients suspected of stroke had further MRI brain for evaluation. Statistical analysis was then performed comparing groups with and without infarct.

RESULTS

Overall, 115 cases of extradural haematoma were identified during the study period. Eighty cases had adequate postoperative imaging to allow assessment for infarcts; 7.5% demonstrated evidence of infarct underlying extradural haematoma. Mean age in the infarct group was 1.8 years (M:F ratio 2:1) with mean EDH dimensions of 77 mm × 31.4 mm × 79.7 mm). Mean age in the non-infarct group was 8.6 years (M:F ratio 2:1) with mean EDH dimensions of (57.5 mm × 19.6 mm × 62.6 mm). Children with infarcts were significantly younger with larger haematoma dimensions and had a higher proportion of pupillary abnormalities. There was no significant difference in pre-operative GCS and scan-to-surgery time-lapse between the groups with and without infarct.

CONCLUSION

Compressive effect of EDH can lead to underlying parenchymal infarct. Children with extradural haematoma-related infarct were younger with larger haematoma size and a higher proportion of pupillary abnormalities.

Neuronavigation-assisted microsurgical clipping of pericallosal aneurysms: A single-center retrospective study

Surgical clipping of pericallosal artery aneurysm is technically challenging since it is fragile and tends to rupture accidentally during the operation. This study was aimed to evaluate the efficacy and safety of MRI-neuronavigation-assisted microsurgery for pericallosal artery aneurysm clipping. Forty patients diagnosed with pericallosal artery aneurysms who underwent craniotomy clipping were enrolled. Among these patients, 18 cases accepted routine surgical approaches, while another 22 cases accepted MRI-neuronavigation-assisted microsurgery. Design of craniotomy, operation pathway, operation duration, intraoperative cerebral protection and superior drainage vein protection were analyzed retrospectively. All the 40 cases underwent aneurysm clipping by pre-coronal inter-hemispheric approach, and all aneurysms were clipped completely confirmed by postoperative CTA or DSA. During the operations, MRI-neuronavigation provided precise spatial configuration of pericallosal artery aneurysms, and allowed accurate and real-time identification for the adjacent arteries and brain structures, and no aneurysms ruptured accidentally during the operations. Functional cortex and draining veins were protected well. Compared with routine surgical approaches, the MRI-neuronavigation-assisted microsurgery showed less operation duration, few adverse events induced by accurate location for aneurysm and less invasion to draining veins. Therefore, MRI-neuronavigation-assisted microsurgery could precisely locate the pericallosal artery aneurysm, optimize surgical approaches, and help to cerebral protection. It is expected to reduce the surgical risk and improve the precision and security, can be regarded as an effective technology in the clipping of pericallosal artery aneurysms.

Causes and risk factors of an unplanned second craniotomy in patients with traumatic brain injury

BACKGROUND

The purpose of this retrospective study was to evaluate the causes and risk factors of an unplanned second craniotomy in patients with traumatic brain injury (TBI).

METHODS

A total of 219 patients with TBI who underwent initial unilateral intracranial supratentorial surgery between January 2016 to November 2021 were included. We evaluated the causes of an unplanned second craniotomy in 40 patients, and analyzed the risk factors for a contralateral second craniotomy in 21 patients using a multivariate logistic regression analysis.

RESULTS

The most common cause for an unplanned second craniotomy was delayed or enlarged hematoma in the non-operation area (26/40; 65%), followed by recurrent hematoma in the operation area (8/40; 20%), ipsilateral massive cerebral infarction (3/40; 7.5%), diffuse brain swelling (2/40; 5%) and enlarged cerebral contusion (1/40; 2.5%). Multivariate logistic regression analysis showed that a contralateral craniocerebral injury feature (CCIF) (OR = 13.175), defined on preoperative computerized tomography scanning, was independent risk factor for a contralateral second craniotomy.

CONCLUSIONS

An unplanned second craniotomy in patients with TBI was mainly related to delayed or enlarged hematoma. An increased risk of a contralateral second craniotomy occurs in patients with CCIF.

Secondary hyperperfusion injury following surgical evacuation for acute isolated epidural hematoma with concurrent cerebral herniation

Objective

Hemispherical cerebral swelling or even encephalocele after head trauma is a common complication and has been well elucidated previously. However, few studies have focused on the secondary brain hemorrhage or edema occurring regionally but not hemispherically in the cerebral parenchyma just underneath the surgically evacuated hematoma during or at a very early stage post-surgery.

Methods

In order to explore the characteristics, hemodynamic mechanisms, and optimized treatment of a novel peri-operative complication in patients with isolated acute epidural hematoma (EDH), clinical data of 157 patients with acute-isolated EDH who underwent surgical intervention were reviewed retrospectively. Risk factors including demographic characteristics, admission Glasgow Coma Score, preoperative hemorrhagic shock, anatomical location, and morphological parameters of epidural hematoma, as well as the extent and duration of cerebral herniation on physical examination and radiographic evaluation were considered.

Results

It suggested that secondary intracerebral hemorrhage or edema was determined in 12 of 157 patients within 6 h after surgical hematoma evacuation. It was featured by remarkable, regional hyperperfusion on the computed tomography (CT) perfusion images and associated with a relatively poor neurological prognosis. In addition to concurrent cerebral herniation, which was found to be a prerequisite for the development of this novel complication, multivariate logistic regression further showed four independent risk factors contributing to this type of secondary hyperperfusion injury: cerebral herniation that lasted longer than 2 h, hematomas that were located in the non-temporal region, hematomas that were thicker than 40 mm, and hematomas occurring in pediatric and elderly patients.

Conclusion

Secondary brain hemorrhage or edema occurring within an early perioperative period of hematoma-evacuation craniotomy for acute-isolated EDH is a rarely described hyperperfusion injury. Because it plays an important prognostic influence on patients' neurological recovery, optimized treatment should be given to block or reduce the consequent secondary brain injuries.

Clinical Outcome of Patients Diagnosed Traumatic Intracranial Epidural Hematoma With Severe Brain Injury (Glasgow Coma Scale ≤8) Who Undergo Surgery: A Report From the Korean Neuro-Trauma Data Bank System

OBJECTIVE

To evaluate the clinical outcomes and prognostic factors in surgically treated patients with severe brain injury (Glasgow Coma Scale [GCS] score ≤8) diagnosed with traumatic epidural hematoma (EDH).

METHODS

From January 2018 to June 2021, 1,122 patients with an initial GCS score ≤8 were retrospectively enrolled in the Korean Neuro-Trauma Data Bank System. Clinical data of 79 surgically treated patients with EDH were compared between the unfavorable (scores of 1-4 on the Glasgow Outcome Scale-Extended [GOSE]) and favorable (score of 5-8 on the GOSE) outcome groups.

RESULTS

The overall mortality rate was 13.9%, and 60.8% of the patients had good outcomes at six months post-trauma. In the univariate analysis, increasing age (p=0.010), lower initial GCS score (p=0.001), higher Rotterdam computed tomography (CT) score (p=0.012), craniotomy rather than craniectomy (p=0.032), larger EDH volume (p=0.007), and loss of pupillary reactivity (unilateral unreactive pupil, p=0.026; bilateral unreactive pupils, p<0.001), were significantly correlated with unfavorable outcomes. Of these factors, increasing age (p=0.011) and bilateral unreactive pupils (p=0.002) were the most significant risk factors in the multivariate logistic regression analysis. The interval from admission to the brain CT scan was not correlated with the outcome; however, it was significantly longer in the unfavorable outcome group.

CONCLUSION

Despite severe brain injury, more than half of the patients with EDH had favorable outcomes after surgical treatment. Our findings suggest that prompt diagnosis and surgical treatment should be considered for such cases.

The prevalence and risk factors of posttraumatic cerebral infarction in patients with traumatic brain injury: a systematic review and meta-analysis

Posttraumatic cerebral infarction (PTCI) is a serious complication of traumatic brain injury (TBI), and the prevalence and risk factors of PTCI in TBI patients are in dispute. We systematically searched the literature in the PubMed, Embase, and Cochrane library up to October 2021 to identify studies on the prevalence and risk factors of PTCI in patients with TBI. The quality of observational studies was assessed by the Newcastle-Ottawa scale tool. Random-effects model was conducted. The Higgins` I² statistic was used to measure heterogeneity between trials. Moreover, sensitive analyses were conducted to assess whether the pooled result was credible and robust. Eleven studies (3696 total TBI patients) were included. The pooled prevalence of PTCI in TBI patients was 14% (95% CI, 0.11-0.17; I² = 83.1%). Sensitive analyses showed that the pooled prevalence of PTCI was 13% (95% CI, 0.10-0.15; I² = 69.2%) by omitting Su et al. The prevalence of PTCI was associated with a lower Glasgow Coma Scale (GCS) score (OR, 0.33; 95% CI, 0.14-0.77; I² = 99.2%), pupillary dilation (OR, 4.73; 95% CI, 4.30-5.19; I² = 85.6%), abnormal PT (OR, 1.16; 95% CI,1.05-2.47; I² = 99.2%), hematoma location (OR, 1.16; 95% CI,1.05-2.47; I² = 99.2%) and hematoma volume (OR, 1.16; 95% CI,1.05-2.47; I² = 99.2%). Whereas hypotensive shock, duraplasty, cerebral herniation, and thrombocytopenia were not statistically associated with PTCI. Lower GCS, pupillary dilation, abnormal PT, hematoma location, and hematoma volume were risk factors for PTCI. Considering some limitations, the conclusion of our study should be interpreted with caution.

Postoperative cerebral infarction after evacuation of traumatic epidural hematoma in children younger than two years: Single-center experience

Background

Epidural hematoma (EDH) forms about 2-3% of all head injuries in the pediatric population. We evaluated clinical data and risk factors for postoperative infarction in children younger than 2 years presented with traumatic EDH.

Methods

We retrospectively reviewed and analyzed the data of 28 children with traumatic EDH operated in our institute during a period of 26 months (from December 2016 to Febuary 2019).

Results

Nineteen children were boys (68%) and nine were girls (32%), the mean age was 15 months (range from 5 to 24 months). Postoperative cerebral infarction was detected in seven cases (25%). Factors could be linked to postoperative cerebral: preoperative pediatric Glasgow Coma Scale (P = 0.036), neurological deficit on admission (P = 0.023), size of hematoma (P < 0.001), time between trauma and surgery (P = 0.004), midline shift (MLS) (P = 0.001), and basal cistern compression (P = 0.004).

Conclusion

Traumatic EDH in young children represents a neurosurgical challenge that needs rapid surgical intervention for the best surgical outcome. Delay in the time of surgery for more than 6 h, large hematoma volume >100 ml3, MLS >10 mm, and basal cisterns compression will push the intracranial pressure to the point of decompensation and the resultant ischemic sequel occurs.

Comparative effectiveness of different surgical procedures for traumatic acute epidural haematoma: study protocol for Prospective, Observational Real-world Treatments of AEDH in Large-scale Surgical Cases (PORTALS-AEDH)

INTRODUCTION

Controversy and variation exist in surgical management for acute epidural haematoma (AEDH). Although craniotomy for AEDH is conventionally employed, no specific evaluation on the necessity of decompressive craniectomy (DC) followed by AEDH evacuation has been performed.

METHODS AND ANALYSIS

This is a multicentre prospective, phase III observational study that evaluates different surgical managements for the AEDH. Patients of both genders, aged 18-65 years, presenting to the emergency room with a clinical and radiological diagnosis of AEDH, complying with other inclusion and exclusion criteria, are enrolled. Clinical information, including diagnosis of AEDH, radiological information, treatment procedures and follow-up data of 1, 3 and 6 months post-injury, is collected on 2000 eligible patients among 263 hospitals in China. Recruitment for the study started in April 2021, and inclusion will be continued until the sample size is obtained, expected is an inclusion period of 24 months. The interventions of concern are surgical treatments for AEDH, including craniotomy and DC. The primary outcome is the Glasgow Outcome Score-Extended 6 months post-injury. Secondary outcomes include the incidence of postoperative cerebral infarction, the incidence of additional craniocerebral surgery and other evaluation indicators within 6 months post-injury.

ETHICS AND DISSEMINATION

The study protocol has been approved by the ethics committee and institutional review board of Renji Hospital, School of Medicine, Shanghai Jiao Tong University. All study investigators strictly follow the Declaration of Helsinki and Human Biomedical Research Ethical Issues. Signed written informed consent will be obtained from all enrolled patients. The trial results will be disseminated through academic conferences and published in peer-reviewed journals.

TRIAL REGISTRATION NUMBER

NCT04229966.

Characterizing Comorbid Cerebrovascular Insults Among Patients With TBI at a TBI Model Systems Rehabilitation Center

OBJECTIVE

Determine incidence and predictors of comorbid cerebrovascular injuries in patients with moderate to severe traumatic brain injury (TBI) and whether it influences rehabilitation outcomes.

SETTING

Inpatient Rehabilitation Facility (IRF) brain injury unit participating in NIDILRR TBI Model Systems (TBIMS).

PARTICIPANTS

A total of 663 patients with moderate to severe TBI.

DESIGN

Observational study with prospective and retrospective data collection.

MAIN MEASURES

New traumatic cerebral artery injury (TCAI) lesions of head/neck and new cerebral infarcts (CIs) abstracted from neuroimaging reports and clinical notes.

RESULTS

The incidence of comorbid CI was 8%, among whom 19% also had TCAI identified. The incidence of TCAI increased over time from 2% before 2008 to 10% after, probably from greater screening. Both CI and TCAI were associated with longer acute care stay. Cerebral infarct was also associated with longer posttraumatic amnesia and lower rate of functional gains.

CONCLUSIONS

Using in-depth abstraction of imaging findings, the incidence of traumatic head/neck artery injuries, and CIs in patients with moderate to severe TBI were both higher than a recent TBIMS-wide study utilizing ICD coding. Cerebral infarct was associated with longer posttraumatic amnesia duration and slower functional gains. Further research is recommended on the outcome implications of concomitant cerebrovascular injury in patients with TBI.

Prospective Randomized Evaluation of Decompressive Ipsilateral Craniectomy for Traumatic Acute Epidural Hematoma (PREDICT-AEDH): study protocol for a randomized controlled trial

Background

The expeditious surgical evacuation of acute epidural hematoma (AEDH) is an attainable gold standard and is often expected to have a good clinical outcome for patients with surgical indications. However, controversy exists on the optimal surgical options for AEDH, especially for patients with brain herniation. Neurosurgeons are confronted with the decision to evacuate the hematoma with decompressive craniectomy (DC) or craniotomy.

Methods/design

Patients of both sexes, age between 18 and 65 years, who presented to the emergency room with a clinical and radiological diagnosis of AEDH with herniation, were assessed against the inclusion and exclusion criteria to be enrolled in the study. Clinical and radiological information, including diagnosis of AEDH, treatment procedures, and follow-up data at 1, 3, and 6 months after injury, was collected from 120 eligible patients in 51 centers. The patients were randomized into groups of DC versus craniotomy in a 1:1 ratio. The primary outcome was the Glasgow Outcome Score-Extended (GOSE) at 6 months post-injury. Secondary outcomes included incidence of postoperative cerebral infarction, incidence of additional craniocerebral surgery, and other evaluation indicators within 6 months post-injury.

Discussion

This study is expected to support neurosurgeons in their decision to evacuate the epidural hematoma with or without a DC, especially in patients with brain herniation, and provide additional evidence to improve the knowledge in clinical practice.

Trial registration

ClinicalTrials.govNCT 04261673. Registered on 04 February 2020

Influence of Decompressive Craniectomy Post Evacuation of Epidural Hematoma in Comatose Patients

BACKGROUND

Epidural hematoma causing brain herniation is a major cause of mortality and morbidity after severe traumatic brain injury, even if surgical treatment is performed quickly. Decompression may be effective in decreasing intracranial pressure, but its effect on outcomes remains unclear.

METHODS

A retrospective analysis of deeply comatose patients (Glasgow Coma Scale score 3-5) who underwent surgical treatment during a 12-year period, either via osteoplastic craniotomy (OC) or decompressive craniectomy, was carried out. Patient groups were compared on the basis of demographics, admission clinical state, head computed tomography imaging characteristics, and discharge outcome.

RESULTS

A total of 60 patients were examined. The first group of 31 patients (52%) needed decompression during primary surgery. The second group of 29 patients (48%) underwent OC with evacuation of epidural hematoma without decompression. Both patient groups were similar according to age (40.9 ± 13 vs. 40.6 ± 12.5 years), Glasgow Coma Scale score before surgery (4 [3-5] vs. 4 [3-5]), hematoma thickness (based on computed tomography) (3.44 ± 1 vs. 3.36 ± 1.62 cm), and midline shift (1.42 ± 0.83 vs. 1.36 ± 0.9 cm). Mortality was more evident in the decompression group (45.2% vs. 13.8%; P = 0.008), and the Glasgow Outcome Score was also lower, 2.26 ± 1.5 versus 3.45 ± 1.5 (P = 0.003).

CONCLUSIONS

Decompressive craniectomy following the evacuation of an acute epidural hematoma in deeply comatose patients demonstrated inferior outcomes in comparison with OC. Brain injury in the decompressive craniectomy patient group was more severe (concomitant subdural hematoma, early brain ischemia, and early brain herniation), which may have influenced the outcome. Further prospective studies are needed.

Traumatic Epidural and Subdural Hematoma: Epidemiology, Outcome, and Dating

Epidural hematomas (EDHs) and subdural hematomas (SDHs), or so-called extra-axial bleedings, are common clinical entities after a traumatic brain injury (TBI). A forensic pathologist often analyzes cases of traumatic EDHs or SDHs due to road accidents, suicides, homicides, assaults, domestic or on-the-job accidents, and even in a medical responsibility scenario. The aim of this review is to give an overview of the published data in the medical literature, useful to forensic pathologists. We mainly focused on the data from the last 15 years, and considered the most updated protocols and diagnostic-therapeutic tools. This study reviews the epidemiology, outcome, and dating of extra-axial hematomas in the adult population; studies on the controversial interdural hematoma are also included.

Treatment of intracranial hemorrhage with neuroendoscopy guided by body surface projection

BACKGROUND

We aimed to study the feasibility of body surface projection in neuroendoscopic treatment of intracranial hemorrhage (ICH), and to evaluate the prognosis of muscle strength using diffusion tensor imaging (DTI) technique.

METHODS

We utilized 3D-SLICER software and adopted hematoma body surface projection orientation to eliminate ICH by using neuroendoscope for 69 cases of spontaneous intracerebral hemorrhage. The standard of correct location was determined by the direct view of hematoma at the first operation. Evacuation rate by comparing computed tomography (CT) before and after the surgery and Glasgow coma scale (GCS) was computed. DTI was used for pyramidal tract imaging 3 weeks after the operation, while the prognosis of muscle strength was assessed after 6 months. The control group included 69 patients with basal ganglia hemorrhage who received conservative treatment during the same period.

RESULTS

The hematoma evacuation rate was 90.75% in average. The average GCS score rose by 4 points one week after the surgery. The shape of pyramidal tract affected the prognosis of body muscle strength, and the simple disruption type was the worst. There was no difference in mortality between the surgery group (10.1%) and the conservative group (4.3%). The muscle strength improvement value and modulate RANK score (MRS) in the surgery group were better than the control group.

CONCLUSION

It is convenient and feasible to use the surface projection to determine the target of operation, and the clearance rate of hematoma is high. Pyramidal tract imaging can predict the prognosis of muscle strength.

Clinical evaluation of post-operative cerebral infarction in traumatic epidural haematoma

BACKGROUND

Patients with traumatic epidural haematoma, undergoing the prompt and correct treatment, usually have favourable outcomes. However, secondary cerebral infarction may be life-threatening condition, as it is difficult to be identified before neurological impairment occurs.

OBJECTIVE

To evaluate the clinical data of patients with traumatic EDH and assess potential risk factors for post-operative cerebral infarction.

METHODS

The clinical data of patients with traumatic EDH were collected and analysed retrospectively.

RESULTS

The univariate analysis revealed 10 potential risk factors (the haematoma location, volume, the largest thickness and mid-line shift, basal cisterns compression, traumatic subarachnoid haemorrhage, pupil dilatation, pre-operative Glasgow Coma Scale score, ∆GCS and intraoperative brain pressure) for cerebral infarction with statistically significant difference. Of these factors, haematoma volume and basal cistern compression turned out to be the most significant risk factors through final multivariate logistic regression analysis.

CONCLUSION

The findings of this study can provide predictive factors for development of cerebral infarction and information for clinical decision-making and future studies.

Novel Clinical Scale for Evaluating Pre-Operative Risk of Cerebral Herniation from Traumatic Epidural Hematoma

Secondary massive cerebral infarction (MCI) is the predominant prognostic factor for cerebral herniation from epidural hematoma (EDH) and determines the need for decompressive craniectomy. In this study, we tested the clinical feasibility and reliability of a novel pre-operative risk scoring system, the EDH-MCI scale, to guide surgical decision making. It is comprised of six risk factors, including hematoma location and volume, duration and extent of cerebral herniation, Glasgow Coma Scale score, and presence of preoperative shock, with a total score ranging from 0 to 18 points. Application of the EDH-MCI scale to guide surgical modalities for initial hematoma evacuation surgery for 65 patients (prospective cohort, 2012.02-2014.01) showed a significant improvement in the accuracy of the selected modality (95.38% vs. 77.95%; p = 0.002) relative to the results for an independent set of 126 patients (retrospective cohort, 2007.01-2012.01) for whom surgical modalities were decided empirically. Results suggested that simple hematoma evacuation craniotomy was sufficient for patients with low risk scores (≤9 points), whereas decompressive craniectomy in combination with duraplasty were necessary only for those with high risk scores (≥13 points). In patients with borderline risk scores (10-12 points), those having unstable vital signs, coexistence of severe secondary brainstem injury, and unresponsive dilated pupils after emergent burr hole hematoma drainage had a significantly increased incidence of post-traumatic MCI and necessity of radical surgical treatments. In conclusion, the novel pre-operative risk EDH-MCI evaluation scale has a satisfactory predictive and discriminative performance for patients who are at risk for the development of secondary MCI and therefore require decompressive craniectomy.

Posttraumatic cerebral infarction in severe traumatic brain injury: characteristics, risk factors and potential mechanisms

BACKGROUND

Posttraumatic cerebral infarction (PTCI) is a severe secondary insult of traumatic brain injury (TBI). This study aimed to evaluate the characteristics and risk factors of PTCI after severe TBI (sTBI) and explore possible mechanism.

METHODS

This retrospective study included a cohort of 339 patients with sTBI; they were divided into the PTCI and non-PTCI groups. Clinical data and follow-up charts were reviewed for comparison. The logistic regression model was used for multivariate analysis to detect the risk factors of PTCI. The Glasgow Outcome Scale (GOS) and Barthel index (BI) for activities of daily living (ADL) were applied to evaluate their outcome.

RESULTS

PTCI led to an increased mortality (43.5 % vs. 10.7 %, P < 0.001) and days of intensive care unit stay (14.3 days vs. 7.1 days, P < 0.001), decreased GOS (3.1 vs. 4.1, P < 0.001) and BI (25.0 vs. 77.9, P < 0.001). Increased infarction volume led to poor outcome assessed by GOS (r = -0.46, P < 0.0001) and BI for ADL (r = -0.36, P = 0.026) for surviving patients. Compared with non-PTCI patients, PTCI patients had a high incidence of midline shift (36.2 % vs. 20.7 %, P = 0.011) and posttraumatic vasospasm (PTV) (42.0 % vs. 27.4 %, P = 0.027). Daily prevalence of PTCI occurred in two peaks: one (73.9 %) was in the first 24 h after injury, while the other (18.8 %) was in the span of 43 to 60 h postinjury. In multivariate analysis, hyperthermia [adjusted odds ratio (OR), 3.11; P = 0.001] in the first 24 h, thrombocytopenia (OR, 27.08; P < 0.001), abnormal prothrombin time (OR, 7.66; P < 0.001) and traumatic subarachnoid hemorrhage (OR, 2.33; P = 0.022) were independent predictors for PTCI.

CONCLUSIONS

PTCI deteriorates the outcome of sTBI patients. Mechanical compression and hemocoagulative disturbance serve as potential mechanisms mediating this pathophysiological process. PTV may also contribute to PTCI, but its association with PTCI is weak and needs further exploration. Early recognition and intervention of these factors might be beneficial for preventing PTCI.